Water-Soluble Ruthenium Complexes Bearing Activity Against Protozoan Parasites

Parasitic illnesses are major causes of human disease and misery worldwide. Among them, both amebiasis and Chagas disease, caused by the protozoan parasites, Entamoeba histolytica and Trypanosoma cruzi, are responsible for thousands of annual deaths. The lack of safe and effective chemotherapy and/o...

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Bibliographic Details
Published in:Biological trace element research 2014-06, Vol.159 (1-3), p.379-392
Main Authors: Sarniguet, Cynthia, Toloza, Jeannette, Cipriani, Micaella, Lapier, Michel, Vieites, Marisol, Toledano-Magaña, Yanis, García-Ramos, Juan Carlos, Ruiz-Azuara, Lena, Moreno, Virtudes, Maya, Juan Diego, Azar, Claudio Olea, Gambino, Dinorah, Otero, Lucía
Format: Article
Language:English
Subjects:
amebiasis
Animals
bioactive properties
Biochemistry
Biomedical and Life Sciences
Biotechnology
Chagas disease
chemotherapy
chlorine
DNA
Drug resistance
Entamoeba histolytica
human diseases
inhibitory concentration 50
Life Sciences
metronidazole
Molecular Structure
Nutrition
Oncology
Oxidative stress
Parasites
Parasitic diseases
Pharmacology
Protozoa
Ruthenium
Ruthenium - chemistry
solubility
Thiosemicarbazones - chemistry
Trace elements
Trypanocidal Agents - chemistry
Trypanosoma cruzi
Vector-borne diseases
Water - chemistry
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Summary:Parasitic illnesses are major causes of human disease and misery worldwide. Among them, both amebiasis and Chagas disease, caused by the protozoan parasites, Entamoeba histolytica and Trypanosoma cruzi, are responsible for thousands of annual deaths. The lack of safe and effective chemotherapy and/or the appearance of current drug resistance make the development of novel pharmacological tools for their treatment relevant. In this sense, within the framework of the medicinal inorganic chemistry, metal-based drugs appear to be a good alternative to find a pharmacological answer to parasitic diseases. In this work, novel ruthenium complexes [RuCl₂(HL)(HPTA)₂]Cl₂ with HL = bioactive 5-nitrofuryl containing thiosemicarbazones and PTA = 1,3,5-triaza-7-phosphaadamantane have been synthesized and fully characterized. PTA was included as co-ligand in order to modulate complexes aqueous solubility. In fact, obtained complexes were water soluble. Their activity against T. cruzi and E. histolytica was evaluated in vitro. [RuCl₂(HL4)(HPTA)₂]Cl₂ complex, with HL4 = N-phenyl-5-nitrofuryl-thiosemicarbazone, was the most active compound against both parasites. In particular, it showed an excellent activity against E. histolytica (half maximal inhibitory concentration (IC₅₀) = 5.2 μM), even higher than that of the reference drug metronidazole. In addition, this complex turns out to be selective for E. histolytica (selectivity index (SI) >38). The potential mechanism of antiparasitic action of the obtained ruthenium complexes could involve oxidative stress for both parasites. Additionally, complexes could interact with DNA as second potential target by an intercalative-like mode. Obtained results could be considered a contribution in the search for metal compounds that could be active against multiple parasites.
ISSN:0163-4984
1559-0720
DOI:10.1007/s12011-014-9964-0